Publication detail
INFORMATION SYSTEM OF STRUCTURAL SAFETY MONITORING
BUREŠ, J. BARTONĚK, D. BÁRTA, L. ŠVÁBENSKÝ, O.
Original Title
INFORMATION SYSTEM OF STRUCTURAL SAFETY MONITORING
English Title
INFORMATION SYSTEM OF STRUCTURAL SAFETY MONITORING
Type
conference paper
Language
en
Original Abstract
Safety monitoring is of particular importance for building structures at the end of their lifetime what could endanger the health and lives of people. The use of geodetic robotic measuring stations enables the automated acquisition of coordinate data on the spatial position in the key locations of the monitored building construction and from them to evaluate geometric deformations in real time. This concerns the monitoring of large roof structures of sporting arenas, particularly in winter under snowfall impact, or the static testing of nuclear power plant constructions, or reconstruction of historical cultural heritage sites, the damage or destruction of which would have irreparable consequences. Implementation of safety monitoring of various building constructions in different conditions has many pitfalls. Therefore, the flexibility of the measuring system, the accuracy and reliability, the simplicity, the speed, the clarity and the availability of the evaluated information and the output from the monitoring system need to be addressed. This paper presents the experience and knowledge from the implementation of safety geodetic monitoring of structures where the most important role plays the connection of state-of-the-art measuring and information technologies.
English abstract
Safety monitoring is of particular importance for building structures at the end of their lifetime what could endanger the health and lives of people. The use of geodetic robotic measuring stations enables the automated acquisition of coordinate data on the spatial position in the key locations of the monitored building construction and from them to evaluate geometric deformations in real time. This concerns the monitoring of large roof structures of sporting arenas, particularly in winter under snowfall impact, or the static testing of nuclear power plant constructions, or reconstruction of historical cultural heritage sites, the damage or destruction of which would have irreparable consequences. Implementation of safety monitoring of various building constructions in different conditions has many pitfalls. Therefore, the flexibility of the measuring system, the accuracy and reliability, the simplicity, the speed, the clarity and the availability of the evaluated information and the output from the monitoring system need to be addressed. This paper presents the experience and knowledge from the implementation of safety geodetic monitoring of structures where the most important role plays the connection of state-of-the-art measuring and information technologies.
Keywords
safety monitoring, monitoring information system
Released
09.07.2018
Publisher
STEF92
Location
Sofia, Bulharsko
ISBN
978-619-7408-39-3
Book
Informatics
Issue number
1
Pages from
485
Pages to
492
Pages count
8
Documents
BibTex
@inproceedings{BUT149030,
author="Jiří {Bureš} and Dalibor {Bartoněk} and Ladislav {Bárta} and Otakar {Švábenský}",
title="INFORMATION SYSTEM OF STRUCTURAL SAFETY MONITORING",
annote="Safety monitoring is of particular importance for building structures at the end of their lifetime what could endanger the health and lives of people. The use of geodetic robotic measuring stations enables the automated acquisition of coordinate data on the spatial position in the key locations of the monitored building construction and from them to evaluate geometric deformations in real time. This concerns the monitoring of large roof structures of sporting arenas, particularly in winter under snowfall impact, or the static testing of nuclear power plant constructions, or reconstruction of historical cultural heritage sites, the damage or destruction of which would have irreparable consequences. Implementation of safety monitoring of various building constructions in different conditions has many pitfalls. Therefore, the flexibility of the measuring system, the accuracy and reliability, the simplicity, the speed, the clarity and the availability of the evaluated information and the output from the monitoring system need to be addressed. This paper presents the experience and knowledge from the implementation of safety geodetic monitoring of structures where the most important role plays the connection of state-of-the-art measuring and information technologies.",
address="STEF92",
booktitle="Informatics",
chapter="149030",
doi="10.5593/sgem2018/2.1/S07.061",
howpublished="print",
institution="STEF92",
number="1",
year="2018",
month="july",
pages="485--492",
publisher="STEF92",
type="conference paper"
}